Abstract
The harvesting of soft fruits and vegetables is a labour-intensive process, often representing more than 50% of the total costs for the producer. In this paper, a harvesting robot is proposed for tomato picking. The robotic solution is developed to address the needs of tomato producers in the Shanghai region in China, one that faces population growth and therefore a higher demand on food supply. The robotic system presented consists of a variable-stiffness manipulator arm, a soft robot gripper, and different types of sensors that are used to identify and locate in 3D and pick the tomatoes. The implemented variable compliance enables the robot manipulator to work in a semi-structured environment without damage to itself, the crop or the surrounding. The hardware and software of the robot is described in detail. Early results from the first testing of a proof-of-concept on fresh tomatoes placed on artificial stems in Shanghai are presented, as well as picking UK tomato varieties in greenhouse conditions.
DOI
10.3920/978-90-8686-888-9_99
Publication Date
2019-07-08
Event
12th European Conference on Precision Agriculture
Publication Title
Precision agriculture ’19
Publisher
Wageningen Academic Publishers
Embargo Period
2024-11-22
Recommended Citation
Mohamed, A., Shaw-Sutton, J., Green, B., Andrews, W., & et al. (2019) 'Soft manipulator robot for selective tomato harvesting', Precision agriculture ’19, . Wageningen Academic Publishers: Available at: https://doi.org/10.3920/978-90-8686-888-9_99
